# Copyright Spack Project Developers. See COPYRIGHT file for details.
#
# SPDX-License-Identifier: (Apache-2.0 OR MIT)

import argparse
import json
import os
import pathlib

import pytest

import spack.cmd as cmd
import spack.cmd.find
import spack.concretize
import spack.environment as ev
import spack.package_base
import spack.paths
import spack.repo
import spack.store
import spack.user_environment as uenv
from spack.enums import InstallRecordStatus
from spack.llnl.util.filesystem import working_dir
from spack.main import SpackCommand
from spack.test.utilities import SpackCommandArgs
from spack.util.pattern import Bunch

find = SpackCommand("find")
env = SpackCommand("env")
install = SpackCommand("install")

base32_alphabet = "abcdefghijklmnopqrstuvwxyz234567"


@pytest.fixture(scope="module")
def parser():
    """Returns the parser for the module command"""
    prs = argparse.ArgumentParser()
    spack.cmd.find.setup_parser(prs)
    return prs


@pytest.fixture()
def specs():
    s = []
    return s


@pytest.fixture()
def mock_display(monkeypatch, specs):
    """Monkeypatches the display function to return its first argument"""

    def display(x, *args, **kwargs):
        specs.extend(x)

    monkeypatch.setattr(spack.cmd, "display_specs", display)


def test_query_arguments():
    query_arguments = spack.cmd.find.query_arguments

    # Default arguments
    args = Bunch(
        only_missing=False,
        missing=False,
        only_deprecated=False,
        deprecated=False,
        unknown=False,
        explicit=False,
        implicit=False,
        start_date="2018-02-23",
        end_date=None,
        install_tree="all",
    )

    q_args = query_arguments(args)
    assert "installed" in q_args
    assert "predicate_fn" in q_args
    assert "explicit" in q_args
    assert q_args["installed"] == InstallRecordStatus.INSTALLED
    assert q_args["predicate_fn"] is None
    assert q_args["explicit"] is None
    assert "start_date" in q_args
    assert "end_date" not in q_args
    assert q_args["install_tree"] == "all"

    # Check that explicit works correctly
    args.explicit = True
    q_args = query_arguments(args)
    assert q_args["explicit"] is True

    args.explicit = False
    args.implicit = True
    q_args = query_arguments(args)
    assert q_args["explicit"] is False


@pytest.mark.db
@pytest.mark.usefixtures("database", "mock_display")
def test_tag1(parser, specs):
    args = parser.parse_args(["--tag", "tag1"])
    spack.cmd.find.find(parser, args)

    assert len(specs) == 2
    assert "mpich" in [x.name for x in specs]
    assert "mpich2" in [x.name for x in specs]


@pytest.mark.db
@pytest.mark.usefixtures("database", "mock_display")
def test_tag2(parser, specs):
    args = parser.parse_args(["--tag", "tag2"])
    spack.cmd.find.find(parser, args)

    assert len(specs) == 1
    assert "mpich" in [x.name for x in specs]


@pytest.mark.db
@pytest.mark.usefixtures("database", "mock_display")
def test_tag2_tag3(parser, specs):
    args = parser.parse_args(["--tag", "tag2", "--tag", "tag3"])
    spack.cmd.find.find(parser, args)

    assert len(specs) == 0


@pytest.mark.parametrize(
    "args,with_namespace", [([], False), (["--namespace"], True), (["--namespaces"], True)]
)
@pytest.mark.db
def test_namespaces_shown_correctly(args, with_namespace, database):
    """Test that --namespace(s) works. Old syntax is --namespace"""
    assert ("builtin_mock.zmpi" in find(*args)) == with_namespace


@pytest.mark.db
def test_find_cli_output_format(database, mock_tty_stdout):
    assert find("zmpi").endswith(
        """\
zmpi@1.0
==> 1 installed package
"""
    )


def _check_json_output(spec_list):
    assert len(spec_list) == 3
    assert all(spec["name"] == "mpileaks" for spec in spec_list)
    assert all(spec["hash"] for spec in spec_list)

    deps = [spec["dependencies"] for spec in spec_list]
    assert sum(["zmpi" in [node["name"] for d in deps for node in d]]) == 1
    assert sum(["mpich" in [node["name"] for d in deps for node in d]]) == 1
    assert sum(["mpich2" in [node["name"] for d in deps for node in d]]) == 1


def _check_json_output_deps(spec_list):
    assert len(spec_list) == 16

    names = [spec["name"] for spec in spec_list]
    assert names.count("mpileaks") == 3
    assert names.count("callpath") == 3
    assert names.count("zmpi") == 1
    assert names.count("mpich") == 1
    assert names.count("mpich2") == 1
    assert names.count("fake") == 1
    assert names.count("dyninst") == 1
    assert names.count("libdwarf") == 1
    assert names.count("libelf") == 1


@pytest.mark.db
def test_find_json(database):
    output = find("--json", "mpileaks")
    spec_list = json.loads(output)
    _check_json_output(spec_list)


@pytest.mark.db
def test_find_json_deps(database):
    output = find("-d", "--json", "mpileaks")
    spec_list = json.loads(output)
    _check_json_output_deps(spec_list)


@pytest.mark.db
def test_display_json(database, capfd):
    specs = [
        spack.concretize.concretize_one(s)
        for s in ["mpileaks ^zmpi", "mpileaks ^mpich", "mpileaks ^mpich2"]
    ]

    cmd.display_specs_as_json(specs)
    spec_list = json.loads(capfd.readouterr()[0])
    _check_json_output(spec_list)

    cmd.display_specs_as_json(specs + specs + specs)
    spec_list = json.loads(capfd.readouterr()[0])
    _check_json_output(spec_list)


@pytest.mark.db
def test_display_json_deps(database, capfd):
    specs = [
        spack.concretize.concretize_one(s)
        for s in ["mpileaks ^zmpi", "mpileaks ^mpich", "mpileaks ^mpich2"]
    ]

    cmd.display_specs_as_json(specs, deps=True)
    spec_list = json.loads(capfd.readouterr()[0])
    _check_json_output_deps(spec_list)

    cmd.display_specs_as_json(specs + specs + specs, deps=True)
    spec_list = json.loads(capfd.readouterr()[0])
    _check_json_output_deps(spec_list)


@pytest.mark.db
def test_find_format(database, config):
    output = find("--format", "{name}-{^mpi.name}", "mpileaks")
    assert set(output.strip().split("\n")) == {
        "mpileaks-zmpi",
        "mpileaks-mpich",
        "mpileaks-mpich2",
    }

    output = find("--format", "{name}-{version}-{compiler.name}-{^mpi.name}", "mpileaks")
    assert "installed package" not in output
    assert set(output.strip().split("\n")) == {
        "mpileaks-2.3-gcc-zmpi",
        "mpileaks-2.3-gcc-mpich",
        "mpileaks-2.3-gcc-mpich2",
    }

    output = find("--format", "{name}-{^mpi.name}-{hash:7}", "mpileaks")
    elements = output.strip().split("\n")
    assert set(e[:-7] for e in elements) == {
        "mpileaks-zmpi-",
        "mpileaks-mpich-",
        "mpileaks-mpich2-",
    }

    # hashes are in base32
    for e in elements:
        for c in e[-7:]:
            assert c in base32_alphabet


@pytest.mark.db
def test_find_format_deps(database, config):
    output = find("-d", "--format", "{name}-{version}", "mpileaks", "^zmpi")
    assert (
        output
        == """\
mpileaks-2.3
    callpath-1.0
        dyninst-8.2
            libdwarf-20130729
            libelf-0.8.13
    compiler-wrapper-1.0
    gcc-10.2.1
    gcc-runtime-10.2.1
    zmpi-1.0
        fake-1.0

"""
    )


@pytest.mark.db
def test_find_format_deps_paths(database, config):
    output = find("-dp", "--format", "{name}-{version}", "mpileaks", "^zmpi")
    mpileaks = spack.concretize.concretize_one("mpileaks ^zmpi")
    assert (
        output
        == f"""\
mpileaks-2.3                   {mpileaks.prefix}
    callpath-1.0               {mpileaks['callpath'].prefix}
        dyninst-8.2            {mpileaks['dyninst'].prefix}
            libdwarf-20130729  {mpileaks['libdwarf'].prefix}
            libelf-0.8.13      {mpileaks['libelf'].prefix}
    compiler-wrapper-1.0       {mpileaks['compiler-wrapper'].prefix}
    gcc-10.2.1                 {mpileaks['gcc'].prefix}
    gcc-runtime-10.2.1         {mpileaks['gcc-runtime'].prefix}
    zmpi-1.0                   {mpileaks['zmpi'].prefix}
        fake-1.0               {mpileaks['fake'].prefix}

"""
    )


@pytest.mark.db
def test_find_very_long(database, config):
    output = find("-L", "--no-groups", "mpileaks")

    specs = [
        spack.concretize.concretize_one(s)
        for s in ["mpileaks ^zmpi", "mpileaks ^mpich", "mpileaks ^mpich2"]
    ]

    assert set(output.strip().split("\n")) == set(
        [("%s mpileaks@2.3" % s.dag_hash()) for s in specs]
    )


@pytest.mark.db
def test_find_not_found(database, config):
    output = find("foobarbaz", fail_on_error=False)
    assert "No package matches the query: foobarbaz" in output
    assert find.returncode == 1


@pytest.mark.db
def test_find_no_sections(database, config):
    output = find()
    assert "-----------" in output

    output = find("--no-groups")
    assert "-----------" not in output
    assert "==>" not in output


@pytest.mark.db
def test_find_command_basic_usage(database):
    output = find()
    assert "mpileaks" in output


@pytest.mark.regression("9875")
def test_find_prefix_in_env(
    mutable_mock_env_path, install_mockery, mock_fetch, mock_packages, mock_archive
):
    """Test `find` formats requiring concrete specs work in environments."""
    env("create", "test")
    with ev.read("test"):
        install("--fake", "--add", "mpileaks")
        find("-p")
        find("-l")
        find("-L")
        # Would throw error on regression


def test_find_specs_include_concrete_env(
    mutable_mock_env_path, mutable_mock_repo, tmp_path: pathlib.Path
):
    path = tmp_path / "spack.yaml"

    with working_dir(str(tmp_path)):
        with open(str(path), "w", encoding="utf-8") as f:
            f.write(
                """\
spack:
  specs:
  - mpileaks
"""
            )
        env("create", "test1", "spack.yaml")

    test1 = ev.read("test1")
    test1.concretize()
    test1.write()

    with working_dir(str(tmp_path)):
        with open(str(path), "w", encoding="utf-8") as f:
            f.write(
                """\
spack:
  specs:
  - libelf
"""
            )
        env("create", "test2", "spack.yaml")

    test2 = ev.read("test2")
    test2.concretize()
    test2.write()

    env("create", "--include-concrete", "test1", "--include-concrete", "test2", "combined_env")

    with ev.read("combined_env"):
        output = find()

    assert "No root specs" in output
    assert "Included specs" in output
    assert "mpileaks" in output
    assert "libelf" in output


def test_find_specs_nested_include_concrete_env(
    mutable_mock_env_path, mutable_mock_repo, tmp_path: pathlib.Path
):
    path = tmp_path / "spack.yaml"

    with working_dir(str(tmp_path)):
        with open(str(path), "w", encoding="utf-8") as f:
            f.write(
                """\
spack:
  specs:
  - mpileaks
"""
            )
        env("create", "test1", "spack.yaml")

    test1 = ev.read("test1")
    test1.concretize()
    test1.write()

    env("create", "--include-concrete", "test1", "test2")
    test2 = ev.read("test2")
    test2.add("libelf")
    test2.concretize()
    test2.write()

    env("create", "--include-concrete", "test2", "test3")

    with ev.read("test3"):
        output = find()

    assert "No root specs" in output
    assert "Included specs" in output
    assert "mpileaks" in output
    assert "libelf" in output


def test_find_loaded(database, working_env):
    output = find("--loaded", "--group")
    assert output == ""

    os.environ[uenv.spack_loaded_hashes_var] = os.pathsep.join(
        [x.dag_hash() for x in spack.store.STORE.db.query()]
    )
    output = find("--loaded")
    expected = find()
    assert output == expected


@pytest.mark.regression("37712")
def test_environment_with_version_range_in_compiler_doesnt_fail(
    tmp_path: pathlib.Path, mock_packages
):
    """Tests that having an active environment with a root spec containing a compiler constrained
    by a version range (i.e. @X.Y rather the single version than @=X.Y) doesn't result in an error
    when invoking "spack find".
    """
    test_environment = ev.create_in_dir(tmp_path)
    test_environment.add("zlib %gcc@12.1.0")
    test_environment.write()

    with test_environment:
        output = find()
    assert "zlib" in output


#   a0  d0
#  / \ / \
# b0  c0  e0


@pytest.fixture
def test_repo(mock_stage):
    with spack.repo.use_repositories(
        os.path.join(spack.paths.test_repos_path, "spack_repo", "find")
    ) as mock_packages_repo:
        yield mock_packages_repo


def test_find_concretized_not_installed(
    mutable_mock_env_path, install_mockery, mock_fetch, test_repo, mock_archive
):
    """Test queries against installs of specs against fake repo.

    Given A, B, C, D, E, create an environment and install A.
    Add and concretize (but do not install) D.
    Test a few queries after force uninstalling a dependency of A (but not
    A itself).
    """
    add = SpackCommand("add")
    concretize = SpackCommand("concretize")
    uninstall = SpackCommand("uninstall")

    def _query(_e, *args):
        return spack.cmd.find._find_query(SpackCommandArgs("find")(*args), _e)

    def _nresults(_qresult):
        return len(_qresult[0]), len(_qresult[1])

    env("create", "test")
    with ev.read("test") as e:
        install("--fake", "--add", "a0")

        assert _nresults(_query(e)) == (3, 0)
        assert _nresults(_query(e, "--explicit")) == (1, 0)

        add("d0")
        concretize("--reuse")

        # At this point d0 should use existing c0, but d/e
        # are not installed in the env

        # --explicit, --deprecated, --start-date, etc. are all
        # filters on records, and therefore don't apply to
        # concretized-but-not-installed results
        assert _nresults(_query(e, "--explicit")) == (1, 2)

        assert _nresults(_query(e)) == (3, 2)
        assert _nresults(_query(e, "-c", "d0")) == (0, 1)

        uninstall("-f", "-y", "b0")

        # b0 is now missing (it is not installed, but has an
        # installed parent)

        assert _nresults(_query(e)) == (2, 3)
        # b0 is "double-counted" here: it meets the --missing
        # criteria, and also now qualifies as a
        # concretized-but-not-installed spec
        assert _nresults(_query(e, "--missing")) == (3, 3)
        assert _nresults(_query(e, "--only-missing")) == (1, 3)

        # Tags are not attached to install records, so they
        # can modify the concretized-but-not-installed results

        assert _nresults(_query(e, "--tag=tag0")) == (1, 0)
        assert _nresults(_query(e, "--tag=tag1")) == (1, 1)
        assert _nresults(_query(e, "--tag=tag2")) == (0, 1)


@pytest.mark.usefixtures("install_mockery", "mock_fetch")
def test_find_based_on_commit_sha(mock_git_version_info, monkeypatch):
    repo_path, filename, commits = mock_git_version_info
    file_url = pathlib.Path(repo_path).as_uri()

    monkeypatch.setattr(spack.package_base.PackageBase, "git", file_url, raising=False)

    install("--fake", f"git-test-commit commit={commits[0]}")
    output = find(f"commit={commits[0]}")
    assert "git-test-commit" in output
